在行走过程中对足底离散区域进行皮肤刺激会产生足部的“感觉引导”。

Cutaneous stimulation of discrete regions of the sole during locomotion produces "sensory steering" of the foot.

作者信息

Zehr E Paul, Nakajima Tsuyoshi, Barss Trevor, Klarner Taryn, Miklosovic Stefanie, Mezzarane Rinaldo A, Nurse Matthew, Komiyama Tomoyoshi

机构信息

Rehabilitation Neuroscience Laboratory, University Victoria, PO Box 3010 STN CSC, Victoria, BC V8W 3P1, Canada ; Human Discovery Science, International Collaboration on Repair Discoveries (ICORD), Vancouver, BC, Canada ; Centre for Biomedical Research, University of Victoria, Victoria, BC, Canada ; Division of Medical Sciences, University of Victoria, Victoria, BC, Canada.

Department of Integrative Physiology, Kyorin University School of Medicine, 6-20-2 Shinkawa, Mitaka, Japan.

出版信息

BMC Sports Sci Med Rehabil. 2014 Aug 8;6:33. doi: 10.1186/2052-1847-6-33. eCollection 2014.

DOI:10.1186/2052-1847-6-33

PMID:25202452

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC4158001/

Abstract

BACKGROUND

While the neural and mechanical effects of whole nerve cutaneous stimulation on human locomotion have been previously studied, there is less information about effects evoked by activation of discrete skin regions on the sole of the foot. Electrical stimulation of discrete foot regions evokes position-modulated patterns of cutaneous reflexes in muscles acting at the ankle during standing but data during walking are lacking. Here, non-noxious electrical stimulation was delivered to five discrete locations on the sole of the foot (heel, and medial and lateral sites on the midfoot and forefoot) during treadmill walking. EMG activity from muscles acting at the hip, knee and ankle were recorded along with movement at these three joints. Additionally, 3 force sensing resistors measuring continuous force changes were placed at the heel, and the medial and lateral aspects of the right foot sole. All data were sorted based on stimulus occurrence in twelve step-cycle phases, before being averaged together within a phase for subsequent analysis.

METHODS

Non-noxious electrical stimulation was delivered to five discrete locations on the sole of the foot (heel, and medial and lateral sites on the midfoot and forefoot) during treadmill walking. EMG activity from muscles acting at the hip, knee and ankle were recorded along with movement at these three joints. Additionally, 3 force sensing resistors measuring continuous force changes were placed at the heel, and the medial and lateral aspects of the right foot sole. All data were sorted based on stimulus occurrence in twelve step-cycle phases, before being averaged together within a phase for subsequent analysis.

RESULTS

The results demonstrate statistically significant dynamic changes in reflex amplitudes, kinematics and foot sole pressures that are site-specific and phase-dependent. The general trends demonstrate responses producing decreased underfoot pressure at the site of stimulation.

CONCLUSIONS

The responses to stimulation of discrete locations on the foot sole evoke a kind of "sensory steering" that may promote balance and maintenance of locomotion through the modulation of limb loading and foot placement. These results have implications for using sensory stimulation as a therapeutic modality during gait retraining (e.g. after stroke) as well as for footwear design and implementation of foot sole contact surfaces during gait.

摘要

背景

虽然先前已经研究了全神经皮肤刺激对人体运动的神经和机械效应，但关于激活脚底离散皮肤区域所引发的效应的信息较少。离散足部区域的电刺激在站立时会引发踝关节处肌肉的皮肤反射的位置调制模式，但缺乏行走时的数据。在此，在跑步机行走过程中，对脚底的五个离散位置（脚跟、中足和前足的内侧和外侧部位）进行了非有害电刺激。记录了髋、膝和踝关节处肌肉的肌电图活动以及这三个关节的运动。此外，在脚跟以及右脚脚底的内侧和外侧放置了3个测量连续力变化的力敏电阻。所有数据根据刺激出现在十二个步周期阶段进行分类，然后在一个阶段内进行平均，以便后续分析。

方法

在跑步机行走过程中，对脚底的五个离散位置（脚跟、中足和前足的内侧和外侧部位）进行非有害电刺激。记录了髋、膝和踝关节处肌肉的肌电图活动以及这三个关节的运动。此外，在脚跟以及右脚脚底的内侧和外侧放置了3个测量连续力变化的力敏电阻。所有数据根据刺激出现在十二个步周期阶段进行分类，然后在一个阶段内进行平均，以便后续分析。

结果

结果表明，反射幅度、运动学和脚底压力存在具有部位特异性和阶段依赖性的统计学显著动态变化。总体趋势表明，刺激部位的足底压力降低。

结论

对脚底离散位置的刺激反应引发了一种“感觉引导”，可能通过调节肢体负荷和足部位置来促进平衡和维持运动。这些结果对于在步态再训练（例如中风后）期间将感觉刺激用作治疗方式以及对于步态期间的鞋类设计和脚底接触表面的实施具有启示意义。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/753e/4158001/79f87638bcba/2052-1847-6-33-1.jpg

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Location specificity of plantar cutaneous reflexes involving lower limb muscles in humans.

Exp Brain Res. 2006 Nov;175(3):514-25. doi: 10.1007/s00221-006-0568-6. Epub 2006 Jul 18.

Task-specific modulation of cutaneous reflexes expressed at functionally relevant gait cycle phases during level and incline walking and stair climbing.

Exp Brain Res. 2006 Aug;173(1):185-92. doi: 10.1007/s00221-006-0586-4. Epub 2006 Jul 5.

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在行走过程中对足底离散区域进行皮肤刺激会产生足部的“感觉引导”。

Cutaneous stimulation of discrete regions of the sole during locomotion produces "sensory steering" of the foot.

作者信息

机构信息

出版信息

BACKGROUND

METHODS

RESULTS

CONCLUSIONS

背景

方法

结果

结论

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